Characteristics of Morse Code
| Characteristic | Description |
|---|---|
| Transmission | Morse Code is represented using dots and dashes, with each character separated by spaces. It can be interpreted visually or audibly. |
| Digital Storage | In the digital age, Morse Code can be encoded into binary and stored electronically, preserving its legacy in modern information systems. |
| Cable Code | Adapted for undersea telegraph cables, Morse Code uses dots and dashes translated into electrical signals for transmission, extending communication across oceans. |
| Timing | The timing of Morse Code is crucial for accurate interpretation. A dot is the basic unit of time, with a dash being three times the length of a dot. |
| Spoken Representation | Morse Code can be represented verbally by pronouncing dots as “dit” and dashes as “dah,” aiding in learning and teaching. |
| Speed in Words per Minute | Proficiency in Morse Code is measured in words per minute (WPM). Skilled operators can transmit and receive messages at high speeds, often exceeding 20 WPM. |
| Farnsworth Speed | Farnsworth speed, named after inventor Donald Farnsworth, involves increasing spacing between characters and words while maintaining a standard dot duration. |
Morse Code Tutorial
Developed in the early 1830s by Samuel Morse and Alfred Vail, Morse Code was originally designed for telegraphy, but its influence has transcended time and technology. In this article, we will explore the history behind Morse Code, its significance, and its continued relevance in the digital age.
Table of Content
- What is Morse Code?
- Development and History of Morse Code
- International Morse Code
- Applications of Morse Code
- Characteristics of Morse Code
- How to learn Morse Code?
- Morse Code Representation in Programming
- Morse Code Applications in Programming